View clinical trials related to Epilepsy.
Filter by:Sudden unexpected death in epilepsy (SUDEP) is the most important epilepsy-related mode of death. The exact mechanism of SUDEP is not known. It is thought that cardiac and respiratory factors are involved. Several ways of preventing SUDEP have been identified. These include seizure control, stress reduction, physical activity, family's ability to perform CPR, and night supervision. A mattress alarm system that monitors nocturnal seizures can alert family members of night time seizure activity. Thus, a family member could provide aid and therefore potentially avoid SUDEP. The Emfit monitor is intended to perform these tasks. Investigators tested the Emfit mattress monitor DVM-GPRS-V2 in combination with the Emfit bed sensor L-4060SL in the epilepsy monitoring unit and were able to demonstrate that the device has a high predictive value for detection of generalized convulsions and that it can notify caregivers in the early stages of convulsive activity. This study will further investigate the upgraded (connected to a cloud server via an integrated cellular GPRS module) Emfit mattress monitor DVM-GPRS-V2 and the upgraded Emfit mattress sensor L-4060SLC in combination with an acoustic and new cloud-based notification system.
This is an observational, open-label, flexible dose study that will prospectively and longitudinally assess the effect of Cannabidiol (CBD) therapy in patients with drug-resistant epilepsies through a Physician Expanded Access Investigational New Drug protocol.
In this trial, the potential anti-epileptic effect of low dose fenfluramine in Lennox Gastaut epilepsy will be studied. An exploratory dose finding add-on trial is proposed. At baseline and at the end of the study, ECG and ultrasound of the heart will be performed as part of the safety follow up.
This project intends to investigate children with idiopathic and cryptogenic localization related epilepsies, using a longitudinal assessment of structural and functional MRI data, in relation to neuropsychological evaluation. The rationale is primarily based on: 1) the frequent observation of selective cognitive dysfunctions in such children, the pathophysiology of which remains largely uncertain; 2) the recent major advances in the MRI investigation of brain maturation showing striking age and region dependant patterns. The primary hypothesis is that some children with localization related epilepsies suffer from altered maturation in the epileptic brain regions, and that this abnormal maturation affects their cognitive abilities. 100 children with localization related epilepsies and 100 matched controls will be prospectively enrolled during the first two years of the disease (for patients) and benefit from a comprehensive phenotypic and neuropsychological evaluation once a year for 5 years. The brain maturation of these children will be longitudinally assessed using structural and functional MRI, and correlated with neuropsychological data. Investigators hope to demonstrate that children with localization related epilepsies and cognitive dysfunctions suffer from an abnormal brain maturation in regions underlying the epileptic activity and the altered cognitive processes. The finding could partly bridge the gap between these two abnormalities and help better understand their interaction and respective dynamic. Once validated, the study of regional brain maturation in children with epilepsy might be further used as a reliable surrogate marker or predictor of associated cognitive dysfunction.
The long-term goal of this research is to improve seizure control among patients with epilepsy, which has the potential to improve quality of life for thousands of people living with epilepsy and reduce health care utilization, social and economic costs, and epilepsy-related mortalities. Participants who are suffering from epilepsy will be randomized to receive usual care (UC), a smartphone-based self-management intervention called Management of Risks in Epilepsy (MORE), or MORE + telephone-based motivational interviewing (MI). Participants will be followed for 3 months.
The purpose of this study is to demonstrate the effectiveness of oral glucose administration during MRI for imaging of newborns and compare with midazolam sedation.
The ketogenic diet is a non-pharmacological treatment prescribed especially for children and indicated in most specialized centers for patients with refractory epilepsy. The composition of the ketogenic diet is based on high-fat, low-carbohydrate, moderate protein content, and the production of ketone bodies is the probable mechanism involved in the control of seizures. The relationship between the treatment of the ketogenic diet and changes in oxidative characteristics, physical and lipid are not well established. Some studies show a significant increase in total cholesterol and triglycerides in children being treated with ketogenic diet, but other studies have shown that changes in lipid profile in the long term do not appear to be significant, beyond the influence of these changes on coronary heart disease are unknown. The studies performed in the last two decades have shown that besides the changes in the lipid profile, oxidative modification of lipoproteins are essential for the initiation and progression of atherosclerosis and physical properties of lipoproteins also appear to be involved in this process, suggesting that the particle size of lipoproteins, through the analysis of subfractions can provide more details of the cardiovascular risk. Thus, this projetct aims to compare the effects of the classical ketogenic diet with the ketogenic diet modified with lower content of saturated fatty acids and a higher content of monounsaturated and polyunsaturated, the oxidative changes of LDL, lipidomic profile, the concentration of antioxidants in production inflammatory cytokines and the subfractions of LDL and HDL in children and adolescents with refractory epilepsy, the clinical effect on controlling epilepsy.
Background: Some people with brain tumors have seizures related to the tumor. This is called tumor-related epilepsy. Usually brain tumors are treated by removing as much of the brain tumor as possible without causing problems. Researchers think this may improve the outcome for people with brain tumors. It may completely relieve or greatly reduce the number of seizures they have. Objectives: To evaluate people with brain tumors that are associated with seizures and to offer surgical treatment. Also, to study how surgery affects seizures. Eligibility: People age 8 and older who have a brain tumor with associated seizures. They must be willing to have brain surgery to treat their epilepsy. Design: Participants will be screened with a review of their medical records. Participants will have a medical history and physical exam. Participants will be admitted to the hospital at NIH. They will have Medical history Physical exam Neurological exam Tests of memory, attention, and thinking Questions about their symptoms and quality of life Blood drawn They may also have: MRI or CT scan. They will lie on a table that slides in and out of a machine that takes pictures. For part of the MRI, they will get a dye through an intravenous (IV) catheter. Video electroencephalography monitoring. Electrodes will be placed on the scalp. The participant s brain waves will be recorded while doing normal activities. Participants will be videotaped. Participants will keep a seizure diary before and after surgery. Participants will have surgery to remove their brain tumor and the brain area where their seizures start. They will stay in the hospital up to a week after surgery. Participants have for follow-up visits at NIH.
The purpose of this study is to investigate a novel stimulation protocol of repetitive transcranial magnetic stimulation (rTMS) for the treatment of unifocal neocortical epilepsy, namely continuous thetaburst stimulation (cTBS). As this is a pilot study, the primary endpoint is on safety and tolerability of the treatment. However, information on clinical efficacy and mechanism of action will also be collected.
This is a pilot study to determine if a standard bolus dose and infusion of dexmedetomidine can significantly decrease the dose of propofol (infusion) required for accomplishing an MRI. The investigators studied three arms to examine the effectiveness of dexmedetomidine. Arm 1 was a single bolus of 1.0 mcg/kg with 1.0 mcg/kg/hr infusion followed by propofol infusion. Arm 2 was a bolus of 1.0 mcg/kg with 0.5 mcg/kg/hr infusion followed by propofol infusion. Arm 3 was only a single bolus of 1.0 mcg/kg with no infusion followed by propofol infusion.